Mastery in Surgery: Your Path to Expertise Starts Here
For Surgeons
Refine your surgical skills with our hyperrealistic simulators and tailored training solutions. From models that replicate every detail to dedicated training spaces, we provide the precision and confidence you need to achieve excellence in your craft.
Discover the Real Difference
Hyperrealitic simulation
Experience unparalleled realism with RealSpine’s precise haptic feedback, replicating bone densities and soft tissues. Enhance your training with RealImaging, offering radiation-free radiological simulation, and RealVR, delivering an immersive pre- and post-operative planning experience
Flexible Surgical Training: RealLab Leipzig or Anywhere You Need
Experience the convenience of customised training with our RealLab Leipzig or mobile solutions. Whether at your hospital, hotel, or office, we deliver seamless, high-quality training directly to your location, tailored to your schedule and needs
Own Your Expertise: Buy Your RealSpine Simulator Today
Take your expertise further with RealSpine, the hyperrealistic simulator trusted by top professionals. Enhance your skills from cadaver or model-based courses, perfect new techniques, or execute groundbreaking research projects. Shop now and unlock your full potential
Endorsed by experts
Scientific Evidence: RealSpine and the Enhancement of Surgical Competencies
The impact of RealSpine on surgical training is backed by scientific publications validating its effectiveness in improving surgeons’ skills and competencies. These studies highlight how our hyperrealistic simulator transforms learning, shortens training curves, and refines surgical techniques.
We invite you to explore these articles and discover how RealSpine is revolutionizing surgical education. If you have ideas or research projects, we would love to collaborate with you to further advance knowledge in this field.
Non-cadaveric spine surgery simulator training in neurosurgical residency
Authors: Pöser P, Schenk R, Miller H, Alghamdi A, Lavalley A, Tielking K, Nissimov N, Früh A, Chakkalakal D, Patsouris V, Sargut TA, Mertens R, Xu R, Truckenmüller P, Ferdowssian K, Rösler J, Wasilewski D, Jelgersma C, Roethe A, Sanchin A, Vajkoczy P, Picht T, Onken JS. N Am Spine Soc J. 2024 Nov 9;20:100573.
Use of a High-Fidelity Training Simulator for Minimally Invasive Lumbar Decompression Increases Working Knowledge and Technical Skills Among Orthopedic and Neurosurgical Trainees
Authors: Melcher C, Hussain I, Kirnaz S, Goldberg JL, Sommer F, Navarro-Ramirez R, Medary B, Härtl R. Global Spine Journal. 2023;13(8):2182-2192.
Realistic surgical training environment for spinal surgery
Authors: Fenyöházi E, Jarvers JS, Torres OA Adermann J, Voigtländer M, Selig C Schrempf A, Härtl R, Josten C, Bernal Vera LE, Korb W Journal für Neurologie, Neurochirurgie und Psychiatrie 2018; 19 (3), 96-102
Evaluation of self-assessment of participants of an innovative training for spine surgery
Authors: Jan-Sven Jarvers, Eszter Fenyöhazi, Jens Adermann, Susanne Kotzsch, Luis Bernal, Werner Korb, Christoph E. Heyde & Christoph Josten Conference abstract - German Congress of Orthopaedics and Traumatology (DKOU 2016)
Development and validation of an artificial wetlab training system for the lumbar discectomy
Authors: Jens Adermann, Norman Geißler, Luis E. Bernal, Susanne Kotzsch, Werner Korb European Spine Journal, September 2014, Volume 23, Issue 9, pp 1978–1983
Technological competence in the OR - Train the Trainer course concept with surgical simulators.
Authors: Andrej Machno, Norman Geißler, Susanne Kotzsch, Anke Hoffmeier, Luis Enrique Bernal Vera, Werner Korb CURAC (Deutsche Gesellschaft für Computer und Roboterassistierte Chirurgie e.V.) 2013, 71-75